A battery system is disclosed. In one embodiment, the system includes i) a plurality of battery modules each of which is configured to store power, wherein each battery module is electrically connected to at least one other battery module and ii) a plurality of management units configured to monitor states of the battery modules. Each management unit is electrically connected to at least one other management unit and one or more of the battery modules. Each management unit may include: at least one measuring unit configured to perform the monitoring and a receiving unit configured to i) receive measurement data including the monitoring results from the measuring unit via a first communication protocol and ii) receive measurement data from another receiving unit included in another management unit via a second communication protocol different from the first communication protocol.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A battery system comprising: a plurality of battery modules each of which is configured to store power, wherein each battery module is electrically connected to at least one other battery module; and a plurality of management units configured to monitor states of the battery modules, wherein each management unit is electrically connected to at least one other management unit, and wherein each of the management units is electrically connected to one or more of the battery modules, wherein each of the management units comprises: at least one measuring unit configured to perform the monitoring; and a receiving unit configured to i) receive measurement data including the monitoring results from the at least one measuring unit via a first communication protocol and ii) receive measurement data from another receiving unit included in another management unit via a second communication protocol which is different from the first communication protocol.
2. The battery system of claim 1 , wherein the at least one measuring unit comprises a plurality of measuring units which are configured to communicate data with one another via the first communication protocol.
3. The battery system of claim 1 , wherein each of the measuring unit and the receiving unit comprises a first communication unit which is configured to communicate data via the first communication protocol.
4. The battery system of claim 1 , further comprising an insulator circuit electrically connected to one of the management units and configured to receive all the measurement data from the one management unit via the second communication protocol.
5. The battery system of claim 1 , wherein each of i) the insulator circuit and ii) the receiving unit electrically connected to the insulator circuit comprises a second communication unit which is configured to communicate data via the second communication protocol.
6. The battery system of claim 1 , wherein the first communication protocol is an inter integrated circuit (I2C) protocol.
7. The battery system of claim 1 , wherein the second communication protocol is a low voltage differential signaling (LVDS) protocol.
8. The battery system of claim 1 , wherein the data transmission speed of the second communication protocol is faster than that of the first communication protocol.
9. The battery system of claim 1 , wherein each of the battery modules comprises at least one battery cell, and wherein the states of the battery modules comprise at least one of the following: voltages, charging states, temperatures and other electrical or chemical characteristics of the battery cells.
10. A battery system comprising: a plurality of battery modules each of which is configured to store power, wherein each battery module is electrically connected to at least one other battery module; a plurality of management units configured to monitor states of the battery modules, wherein each of the management units is electrically connected to one or more of the battery modules, and wherein each management unit is configured to communicate data with at least one other management unit via a first communication protocol; and an insulator circuit electrically connected to one of the management units and configured to receive the monitoring results from the one management unit via a second communication protocol which is different from the first communication protocol.
11. The battery system of claim 10 , wherein each of the management units comprises: at least one measuring unit configured to perform the monitoring; and a receiving unit configured to i) receive measurement data including the monitoring results from the at least one measuring unit via the first communication protocol and ii) receive measurement data from another receiving unit included in another management unit via the first communication protocol.
12. The battery system of claim 11 , wherein each of i) the insulator circuit and ii) the receiving unit electrically connected to the insulator circuit comprises a second communication unit which is configured to perform data communication via the second communication protocol.
13. The battery system of claim 11 , wherein the at least one measuring unit comprises a plurality of measuring units which are configured to communicate data with one another via the first communication protocol.
14. The battery system of claim 10 , wherein each of the battery modules comprises at least one battery cell, and wherein the states of the battery modules comprise at least one of the following: voltages, charging states, temperatures and other electrical or chemical characteristics of the battery cells.
15. The battery system of claim 10 , wherein the first communication protocol is an inter integrated circuit (I2C) protocol.
16. The battery system of claim 10 , wherein the second communication protocol is a low voltage differential signaling (LVDS) protocol.
17. The battery system of claim 10 , wherein the data transmission speed of the second communication protocol is faster than that of the first communication protocol.
18. A battery system comprising: a plurality of battery modules each of which is configured to store power, wherein each battery module is electrically connected to at least one other battery module; a plurality of measuring units configured to monitor states of the battery modules and are divided into a first group and a second group, wherein the first group includes a first plurality of measuring units, wherein the second group includes a second plurality of measuring units, wherein each management unit is electrically connected to at least one other management unit, and wherein each of the management units is electrically connected to one or more of the battery modules; a first sub-data collection unit configured to receive first measurement data including monitoring results from the first measurement units via a first communication protocol; a second sub-data collection unit configured to receive second measurement data including monitoring results from the second measurement units via the first communication protocol; and an insulator circuit configured to receive the first and second measurement data via a second communication protocol which is different from the first communication protocol.
19. The battery system of claim 18 , wherein the first and second sub-data collection units are configured to transmit the measurement data to a first data collection unit via the first communication protocol, wherein the first data collection unit is configured to receive the measurement data from the first and second sub-data collection units and provide the received measurement data to the insulator circuit, and wherein the second sub-data collection unit is configured to transmit the measurement data to the insulator circuit via the second communication protocol.
20. The battery system of claim 18 , wherein the data transmission speed of the second communication protocol is faster than that of the first communication protocol.
Cooperative Patent Classification codes for this invention. Click any code to explore related patents in that topic.
March 16, 2012
January 27, 2015
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